Apparatus for removing individual units



V H. F. TAYLOR ETAL APPARATUS FOR REMOVING INDIVIDUAL UNITS Filed Nov. 25 1944 s Sheets-Sheet! OOGQGGGOGGQQQ0OQQG 000000000Q0 0000 @000 000i I f I INVENTORS v lmwf/v 5 7/010)? AA/0 VZAfl/M/RAJVEDZWSDSKY nrromvgx 5 ShetsfSheet 2 Filed Nov. 25, 1944 ,HJF. TAYLoh ETAL INVENTORS Hanna/E 74mm: nun %Aom/RAA(Eaz:/wxv

ATTORNEX APPARATUS FOR REMOIIING INDIVIDUAL UNITS Oct. 2,

Oct; 2, 1945. H. F. TAYLOR ET AL APPARATUS FOR REMOVING INDIVIDUAL UNITS Filed Nov'. 25, 1944 5 sheets-sheet z y a a NY.

- INVENTORJ RDENE Danae AND ATTORA/fX' Oct.2, 1945. Fg v o-R-mL zjsssp'l's- APPARATUS FOR nE'movIm Ib IDIVIDUAL- UNITS Filed N 'v. 25, 1944 5 Sheets-Sheet 4- INVENTORS ROE/V E Kano/s AND ATTORNEX Oct. 2, 1945; H, F. TAYLOR ETIIL I 2,386,076

APPARATUS FOR REMOVING INDIVIDUAL UNITS I a I INVENTOR5 ARDEN F.- TA VA 0/? AND VL/ am/R A; Msoz veosxr ATTORNEK Patented Oct. 2, 1945 AHPhRaTUs-Fo Harden; Taylor arid VladimirA. Nmlz'vedskm; New Yq flc, N. I, a sig orstov Theimlanfie corporation of Maine 1 cast Fisheries; Qompany New York, N; Ya a:

ApplicationNovember zi 194 i;SeriaI NmSGQMO? (ole-214 9 9) 95 cla ms;

This invention relates to an-apparatus for m-ultaneously removing aplurality" of individual units from a transfer plate on which eachof'theunits is individually supported on a circumference of a perforation and the perforations are arranged in: accordance with" a1 predetermined geometric pattern;

'Fhough the invention iscapable o'f -use' with various small objects; suc'l'i ans-pills; tablets; confections and the like, the invention will} for the sake of brevity-'-and convenience, be described in connection with individual molded unit-por tions or doses of vitamin-preparations'whiclicon sist of discrete particles ofa vitamimbearirigoil containing vitamin-A dispersedin a niat-r'ixcom prising a gelable colloid; such as gelatin; saidmatrixpreferably alsocontaining a" plasticize'r,

andwhich individual molded'units havebeenpro:

Such {unit portions are preparedby depositing a predetermined: quantity" of the selected gelatin emulsion containing the vitamin dispersedtherein in individual" depres duced in starch molds;

sions formed in the mold; composition is permitted'to remain in each depression until it has set to form afinfigel; The mold depfessions? are preferably arranged in' a regular, uniform geometric pattern, suchas straight rows; trans:

diameter which permits asl-idihg movement on" the tubular holders cooperating? therewith;

After the individiialimolded units fhave been verse and longitudinal When such] individual molded units areto be coated,.for1exan1pre with gelatin, the individual molded units; while still: in the mold in which th'ey'vve're formed; are in dividually and simultaneouslylseized' at the tops thereof by a suctionp'ick-u'p device provided with a plurality of short tubular holders arranged in' precisely same geometric p r as that of the molded units Q. th t e moldand suction deviceare brought into properly aligned position with each, .otheneach tubular holder will be disposeddirectly above anindithey, are immersed in a gelatin solution main tained at' an elevated temperature to a depth slightly, abovethe equatorial axes of the mbldefd units. Upon removal-from the coating bath-the,

pickrup device is inverted. After the coatm g has' gel'1ed"and the vacuum released; the transfer plate is elevated, with the consequence that ea'ch individual unit}; -now-semi==c oated; is removed-from the respective tubular holder and supportedby the periphery of a perforation of'theiplate. The

9 semi cea'ted auntsare reinmied from the transfer a transfer plate, as previously" descrihedz" The unit hflsoheldi areammersea nw the gelatin bathw-liereUvtlie previousiy-uncoatea portion-"is coated. 'Aftert g are removedF-fromthe siziftidn-device bvthe trans ferp1ate asprevidusli descrifiedl Gdri'sidefablej difficulty hasbe'en encountered in the retrievalof thesemi-coated individual units fre r'iiethe trah'sfer-p1ate-after the coating opefj thins, ha areeai nyeaemiie 'first-'coatingoperationr Frequently; some of the 'molded units" adhere tehacieusly to the transfer plate and are damaged uflon remova'l by the suctiondevice;

ana mpievea me hamsmror simultaneously" re- Ihmiflkii1g the niolded mlits tfairie'ci Of! a tmrisfeli plate 'and present-them iii-"position whereby the molded-F unitsfcan be simultaneously seized;

Another Okijecfi'of -thifs invention is to provide an appara us wherein; after the transfer plate" carry ng thenioidedunits ispositionedtherein are broughtiin contact with themoldedunits and vacuum is applied, each tubula-r holder wi-llfirmly seize and grip-a" unit-atqan areaof itssurface above its equator. Upon upward movementmf the pick-up device, the units are removed from the mold. .Prior to seizingthekindividual? units by: the suction" pick-up device, thereis-disposd on the suction devicecaxtransfer platewhichuhas a pluralityofholes arranged inia geometric :pat-- tern corresponding precisely tothe' position of the tubular holder-s the-suotioh device: The

perforated'plateis of "a thickness materially less than the length of the tubular holder-s offthe pickup device; and thehole's thereof are 'of a 40" vidual molded unit. When the tubular holders and heapparame actuate will be seci-irelyclamped in rerndvalof the ihdividualunits trom said plate;

Other-andadditionalobj the" description" hereinafter.

The above objects eralj- -b v,rf:pl?oviding an apparatizs" having ,a" stat iia pp a es-1 whichthe erfo'ratedtrans f er piaite an perforauem is" positioned? pemis penbrated anfdtheli aiigfimentwith -the holes" of positioned thereon; A mpva olej iate-havmg ins e-holes of the stationary in augiiment vfitii "th suppert' -is dipbsed port. A plurality tidried" aieng the I eathfthe stationary sup: cfcIamping-members are posi' edges off'the' stationary plate,

" andtrie means for acti atingsaid clamps i ur;

he coating has gelledj the units d; the transfer plate position prior to the ects wi11- appear from are accomplished,

'rtiii an -ir'idividuai unit each (-5 stationary s'uf'pe ole; "-thlei'eef are the transfer plate" ried by the movable plate. The movable plate is provided with means whereby upon actuation thereof the movable plate will be elevated. Upon elevation, the clamps will firmly clamp the transfer plate to the support and, upon continued elevation, the pins carried by the movable plate will elevate the molded units in alignment therewith and remove them from the transfer plate. The movable plate is provided with means to position and elevate the vacuum head which is positioned? estates on the apparatus after the transferplate. has been a secured, the elevation of the "vacuum head being eifected simultaneously with the removal of the units from the transfer plate in order-to prevent compression of the units. The stationary plate is provided with means to properly position'the transfer plate.

' wardly. With this in view, on each Of the posts 8 and I there is slidably disposed a sleeve 30 which is appropriately secured to the bottom of the plate 28. Since the details of construction of the elements appurtenant to each sleeve 30 are identical, the elements cooperating with one of the sleeves 30 will now be described.

" A pring 32 passing through a hole in the plate 28 is positionedbetween the bottom of the stationary' 'plate' lz and an ear 34 formed integral with the sleeve 3!). A lug 36 carried on the bottom of the stationary plate l2 and a screw 38 thread- The specific details of construction of the ap a paratus will now be described in connection with the accompanying drawings forming a part" ofthis specification and in which: 1 Figure l is a top plan view of an illustrative embodiment ofgthe apparatus:

Figure 2 is a front elevation of the apparatus shown in Figure 1; v

Figur,3is a section taken' on the line 3-3 of li Figure 4 is Figure 2; a

Figure 5 is a section taken on the line 5-5 of l i igure 6 is an end elevation looking to the Figure -l and showing the apparatus ready to receive the transfer plate;

. Figure '7 is a view: similar to Figure 6 and ing the apparatus withthe transfer plate sho clamped in position;,.and I Figure 8 is a-central cross-section showing the apparatus with individual rnolded units removed from -thetransfer plate and in position to be picked .up by a suction pick-updevice.

Referring IIOVV t Q'IhQ dra ingswherein like,

reference numerals designate like parts, the reference numerals 2 and. a4 designatea pair of channels .secured together by tie-bolts 6 to form a base on Which the apparatus is mounted. The b sema be disposed on any suitable support, such as, forex'ample, on the top of atabla- A pair of spaced posts 8 are secured at the bottom thereof to thefchannel 2 and a similar pair of posts. ..l- B are secured at the bottom thereof to the channel 4. A stationary plate I2 is disposed on a section takenon the line 4-54 of a the posts 8 and [U and is secured in position thereon in any suitable manner, such. as by flat screws 14 and I5.I The stationary plate [2 is provided with a plurality of holes, [6 arranged in the precise geometric pattern as the holes of a transfer plate 18 and, as shown in Figure 7, an iridividualunit v2o is carried by each hole of the transfer plate. 'Ihestationaryplate I2 is pro vided with a pair of finger slots 22 in each end thereof for reasons which will become apparent hereafter. l l

I shown in is provided withla pair of oppositely disposed positioning pins 24-which are adapted to be received in holes correspondingly disposed in the transfer plate [8 whereby the transfer plate is properly positioned on the stationary plate. The transfer plate, I8 is also provided with apair of finger slots in each end thereof whereby the operator may more expeditiously position the trans fer plate on the stationary plate l2.

' Disposed beneath and in spaced relation tothe Figure 1, the stationary plate 12 edlysecured in the car 34 serve to maintain the spring 32 in position. The tension of the spring 3-2 may be adjusted by rotation of the knurled head 20 of the screw 38 in proper position. A locknut 42 secures the screw 38 in adjusted position; I I r v The movable plate 28 is provided with a plurality of ejector pins M which are arranged thereon in thesame geometric pattern as the perforations in the stationary plate I2. The exposed tips of each pin may, if desired, be shaped to conform with the molded units with which they are to cooperate. The diameter of each pin 44 is smaller than the diameter of the perforations in both the stationary plate 12 and the transfer plate l8 which is to be disposed thereon. V

The movable. plate 28 also carries locating pins 48, preferably disposed as shown in Figure 1.

Each locating pin 48 extends from the top of a body.r nember 50. At the other end. the body member 59' is provided with a base 52 which is seated on the top of the plate 28. A threaded stem 54 extends through ahole in'the plate 28 and a lock nut 56 on the stem B I secures it in position. The'top 58 of the body member 50 constitutes a shoulder, and both the stationary plate l2 and the Ttr'ansferfplate l8 are provided with aligned holes permittingTsuch body members 50 to be slidablymovable therein and therethrough.

Referring now to Figure 1, it will be noted that at each side and preferably at the center thereof there is provided a clamping mechanism, generally designated 'by the" reference numeral 59. As'shown in Figures 6;"? andJ8, each clampin mechanism 59'has a 'clamping' member 69 secured to a pin 62 rotatably mounted in a bracket 64 secured to the'stationaryplate [2. The clamping member 60 is secured to a pin 66 carried in a yoke 68 ,Whichfis threadedly'secured on one end of a screw 10 which is slidably mounted in an arm of a bracket 14 secured to the movable plate 28. A spring 16 positioned around the screw 10 has one end thereof in engagement with a nut TBthreaded on the screw l0 adjacent the yoke 6 8, and the other end in engagement with a member 30 slidably mounted on thescrew 10. r The screw 10 is adjustably mounted with respect to the bracket I4; and a nut 82 secures the screw in adjusted position.

As shown in Figure 1, a clamping mechanism 59' is'also positioned adjacentthe front and rear edges of the stationary plate '12; The details of construction of the clamping elements 59 and the manner in which each is mounted are identical to the ,clamping'elements 59 except that instead of thepivot pin 62 as provided in the clamping mechanism 59, each clamping element 55' is provided with a pivot shaft 84 which extends tlie shaft';

sesame longitudinally of themachine-and is supported in an intermediate bearing 05 and end-bearings" 865 Adjacent eachen'd bearing 85, aclan'ipi-ngmem berjtiT-is secured-in any appropriate manner't'o I26 supporte on posts I28 mounted'on a plat- H form 130'- a'ppropriately mountedon the channelt.

A block I'*4'0is securedto the shaft-I 05 'byrnea'ns of a setscrew I42. A handle M4 is threa'dedlyjsec'uredto the block I40 and a lock nut 146- secures the handle in'ad'justed' position. I

is apparent from the foregoing description, uponmovement of' the handle I44 inthe desired direction; rotation will be imparted tothe' actuating shaft I06 which will be transmitted'thiough the gears I04, I and 98' to the cam shaft 96. Meansareprovidedto limit the eXtentof rotationof theshaft I06 In the form-shown (seeFi ures 2-, 4 and a segment I50 is securedfto the shaft F06- by a set screw I52. Oneach' side, the segment I 50 has secured thereto an ear 154iin which there is adjustably disposed a stop pin I 50. A pair-of lock nuts I58 secure thestop pinsin'adjusted position. An upstandinglug IE0 is carried on an arm- I62 secured to the platform I30. The lug I Ii'Ilis so positioned that upon rotation of the-shaft "I06 either one of the stop pins I55 will engage said lug and limit further movement in that direction.

For reasons which will become apparent, the segment I50 is provided with a depression I 64, intowhich the ball end I65 of a spring-pressed plunger I66 is adapted to be received when the depression I64 is brought into alignment with said plunger I66. The plunger I66 is carried in a housing I68 securedto the platform I30, and a spring F69 within the housing I08 urges the plunger forwardly. The plunger Ifiiiis a-djustably secured in the housing I50, and lock nuts I secure the plunger in adjusted position. It is thus apparent that when the depression I64 comes'in'alignment withathe plunger r66; the latter will enter the same'and serve tomaintain the shaft I06 against rotation. The depression I64 and the ball end I65 of the plunger, however; are so shaped that application of pressure on the handle I44 will cause theplunge'rr I66 to ride out of the depression, thereby releasing the locking effect.

Inoperation, the apparatus is adjusted to the position shown in Figure 6. As will be seen from referenceto Figure 6, the screw I56 is in engagement with the stop I60 whereby movement of thesshaft in one direction is prevented, and the springs 32 urge the'movable-plate 28 downwardly so *that'. the cam followers 92 carried thereby rest ontheicams 04 which are in thei'r lower position.

which is actuated as will" 9h; The cam shaft 95 is provided with'a gear 98 alignmentwith the plunger I 66; whereby th o t to the position or the movable plate as; the

clamping elements-Wand 8-8 are in operrpositiorr,

the topof'theejec'tor pins 44 are spa-ced fromtlie" stationary plate I2, and the shoulders 58 of the locating pins 4-8arespaced from the stationary plate I-Z. After adjustment, the perforated-trans fer plate I8 carrying the individual units-"20 is disposed on the'stationary plate I 2 so'that thepo; sitioning pins 24*on the stationary; plate I2: enter correspondingly located holes in the transfer plate I8, whereby the transferplate- I 8 is properly positibned onthestationaryplatelh.

The operator then a-ctuates the handle 4 44 to rotate the actuating shaft 106 -111 the direc ofthearrbwshown in-Figureti The rotatioinof the shaft Ill'fiis transmitted to the cam shaft Thea'ctuation" of the handle 'I 44 is continued un'til the recess I64 on the-segment I50 is brought in -to s88 ment F50 and hence the shaft P05 are-locked ihto position. During the aforementioned actuation, the 'cams 94 rotate in the direction of thearrow shown in- Figure 6 until theca'ms '94- assume-the position shown in Figure 7*. During this-operation,

I the movable plate=28--is elevatedbecausewof the contour of thecams l." As the movable plate -i's elevated; the brackets I4 carried thereby are also elevated. The elevation of the brackets H -elevates the screws I0 of the clamping mechanisms 5'9' and- 5'9. The elevation of the screws 10' causes thec'lamping elements 6 0tomovedownwardlyand clampthe transfer plate -I-8 tothe stationary plate t2. the same time, the shafts 84 of theclamp i'ng -e1'eme'nts59 are rota-ted and the clamping ele-- ments 88 are also -brought into engagement with the transfer plate I8 adjacent the corners Ithere of; The elevation of. the movable plate 28 alsocauses the elevationofthefidowel pins lse-and theenlarg'ements 50 thereof pass through aligned holes iii-the stationary'plate IZ-"and the transfer plate I 8; asshown in Figurefl.

' When the parts have assumed the position: shownimFigur-e 7 a vacuumhead I80 havingstubularholdersitaz, arranged to'correspond withthe arrangement of the units 20, is brought into posi-- tion and disposed so that the tubular holders. I82 are insengagement with. the individual; units 20. The-vacuum: head I80: is provided; withhole' into which. the locating; pins 40 enter,. and, the shouL- I ders58; of: the locatingipins cooperate with shoulidersi'n the vacuumihead I80 to supporttthevacuumih'ead in position. It is" to be=notedthatra transfer plate I86-is also carried bythevacuum: head; r

Theop'erator then manipulates the handle-I441 to: continuerthe rotation: of the cams 04in the di recti'o'n shown in Figures 6 and. 7 untilthe stop Ii60s is-e1igaged by the stop pin I56. It is to be: noted that'due to the construction of the depres* sion' 164 and the ballend l 55 ofthe plunger 1 66 release therebetween isefiectecl-upon the further manipulation of the handle 444. Atthis time,the camfollowers 9 2 are on the high points of the respective cams SE and the: movable'plate 28 has been further elevated; The further elevation {of themovable'plate 28 causes theejector pins 44 to pass through the aligned: holes in the stationary plated and the-transfer plate I 8 and elevate the lindividual units irom-the transfer plate. The elevation of the movable plate 28also causes elevation of the locating pins- 48 whereby the vacuum-head I80is also simultaneously elevated the same-distance without releasing contactwith the individual" units. I Further, during this elevation;

'and 59' can nolonger be elevated, the elevation of the bracket 14 will elevate the members 80 slidably mounted onthe screws againsttlie action of the springs 16. In this position, which is shown in Figure 3, a valve in the line connecting the vacuum head to a source of vacuum is opened and each tubular holder I82 firmly seizes the individual unit 20 disposed therebeneath and carried by an ejector pin 44. After the unitsZO have been gripped, the vacuum head is raised whereby the units are removed from the apparatus.

'The units held on the vacuum head may be treated as further desired, as by immersion in a coating tank and, after inverting the vacuum head, such units may be removed from the vacuum head by removal of the transfer plate I86.

'The operator then actuates the handle M4 in the opposite direction whereby the parts are brought back to the original position, and another transfer plate carrying the units is disposed on the stationary plate and the operation repeated.

Since it is obvious that various changes and modifications may be made in the above description without departing from the nature or spirit thereof, this invention is not restricted thereto exceptas set forth in the appended claims.

We claim:

1. An apparatus for removing unit objects carried in perforations of a transfer plate comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate,,ejector pins carried by said movable plate, each ejector pin being in alignment with a perforation in said stationary plate, a plurality of clamps positioned adjacent the edges of said stationary plate, means controlled by the upward movement of said movable plate to actuate said clamps to secure the transfer plate to said stationary plate, and means to move said movable platein an upward direction whereby the clamps secure the transfer plate to the stationary plate and the ejector pins elevate the units from the transfer plate.

'2. An apparatus for removing unit objects carried in perforations of a transfer plate comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate, ejector pins carried by said movable plate, each ejector pin being in alignment with a perforation in said stationary plate, a plurality of clamps ositioned adjacent the edges of said stationary plate, means controlled by the upward movement of said movable plate to actuate said clamps to secure the transfer plate to said stationary plate, means to move said movable plate in cure the transfer plate to the stationary plate, and means permitting further elevation of said movable plate wherebythe ejector pins elevate the units from the transfer plate.

3. An apparatus for removing unit objects carried in perforations of a transfer plate comprising an upward direction whereby the clamps se-,

tionary plate, means controlled by the upward movement of said movable plate to actuate said clamps to secure'the transfer plate to the stationary plate, means to move said movable plate in an upward direction whereby the clamps are brought into clamping position, means permitting further elevation of said movable plate whereby the ejector pins elevate the units from the transfer plate, and means on said movable plate to pdsition the means which remove the units from said ejector pins.

4.' An apparatus for removing unit objects carried in perforations of a transfer plate comprising a stationary plate having perforation in alignment with the perforations of the transfer plate positioned thereon, a movable plate yieldingly positioned beneath and in spaced relation to said stationary plate, ejector pins carried by saidmovable plate, each ejector pin, being in alignment with a perforation in said stationary plate, a clamp pivotally mounted adjacent each edge of the stationary plate, a screw having one end connected to said clamp and adapted to operate said clamp, a bracket carried by said stationary plate, said bracket being slidably mounted on said screw, means preventing sliding movement of said bracket on said screw during upward movement of said movable plate until the clamp has secured the transfer plate to the stationary plate, and means to move said movable plate in an upward direction whereby the clamps first secure the transfer plate to the stationary plate and thereafter the ejector pins elevate the units from the transfer plate;

5. An apparatus for removng unit objects carried in perforations of a transfer plate comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate, ejector pins carried by said movable a stationary plate having perforations in alignplate, each ejector pin being in alignment with a perforation in said stationary plate, a pivot shaft mounted adjacent an edge of the stationary plate, a plurality of clamping members secured to said shaft, a screw having one end connected to one of said clamps and adapted to operate said clamp whereby the other clamps on said shaft will be operated, a bracket carried by said stationary plate, said bracket being slidably mounted on said screw, means preventing sliding movement of said bracket on said screw during upward movement of said movable plate until the clamps have secured the transfer plate to the stationary plate, and means to move said movable plate in an upward direction whereby the clamps first secure the transfer plate to the stationary plate and thereafter the ejector pins elevate the units from the transfer plate.

6. An apparatus for removing unit objects carried in perforations of a transfer plate, comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate, ejector pins carried by said movable plate, each ejector pin being in alignment with a perforation in said stationary plate, cam followers carried by said plate, a cooperating cam for each cam follower, spring means urging said plate downwardly to maintain each cam follower on its respective cam, a plurality of clamps positioned adjacent the edges of said stationary plate, means controlled by the movement of said movable plate to actuate said clamps to secure the transfer plate to said stationary plate, and means to actuate said cams to move said movable plate in an upward direction whereby the clamps secure the transfer plate to the stationary plate and the ejector pins elevate the units from the transfer plate.

'7. An apparatus for removing unit objects carried in perforations of a transfer plate, comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate, ejector pins carried by said movable plate, each ejector pin being in alignment with a perforation in said stationary plate, cam followers carried by said plate, a cooperating cam for each cam follower, spring means urging said plate downwardly to maintain each cam follower on its respective cam, a plurality of clamps positioned adjacent the edges of said stationary plate, means controlled by the upward movement of said movable plate to actuate said clamps to secure the transfer plate to said stationary plate, means to actuate said cams to move said movable plate in an upward direction whereby the clamps secure the transfer plate to the stationary plate, and means permitting further elevation of said movable plate whereby the ejector pins elevate the units from the transfer plate.

8. An apparatus for removing unit objects carried in perforations of a transfer plate, comprising a stationary plate having perforations in alignment with the perforations of the transfer plate positioned thereon, a movable plate positioned beneath and in spaced relation to said stationary plate, ejector pins carried by said movable plate, each ejector pin being in alignment with a perforation in said stationary plate, cam followers carried by said plate, a cam shaft, a cooperating cam for each cam follower mounted on said shaft, spring means urging said plate downwardly to maintain each cam follower on its respective cam, an operating shaft operatively connected to said cam shaft, a plurality of clamps positioned adjacent the edges of said stationary plate, means controlled by the upward movement of said movable plate to actuate said clamps to secure the transfer plate to said stationary plate, means to operate said operating shaft whereby said cams move said movable plate in an upward direction until the clamps secure the transfer,

plate to the stationary plate, means to lock said operating shaft when the clamps are in clamping position, and means permitting further elevation of said movable plate whereby the ejector pins elevate the units from thetransfer plate upon further operation of said operating shaft, said further operation releasing said locking means.

9. An apparatus as set forth in claim 4 having locating pins carried by said movable plate, said locating pins being adapted to position and support a vacuum head having means to individually seize and hold each unit.

HARDEN F. TAYLOR. VLADIMIR. A; NEDZVEDSKY. 

